#ifndef DCSM_H
#define DCSM_H

//*****************************************************************************
//
// If building with a C++ compiler, make all of the definitions in this header
// have a C binding.
//
//*****************************************************************************
#ifdef __cplusplus
extern "C" {
#endif

//*****************************************************************************
//
//! \addtogroup dcsm_api DCSM
//! @{
//
//*****************************************************************************

#include <stdbool.h>
#include <stdint.h>
#include "inc/hw_dcsm.h"
#include "inc/hw_types.h"
#include "inc/hw_memmap.h"
#include "inc/hw_sysctl.h"
#include "cpu.h"
#include "debug.h"

//*****************************************************************************
//
// Defines for the unlockZone1CSM() and unlockZone2CSM().
// These are not parameters for any function.
// These are not intended for application code.
//
//*****************************************************************************

#define DCSM_O_Z1_CSMPSWD0 0x00U //!< Z1 CSMPSWD0 offset
#define DCSM_O_Z1_CSMPSWD1 0x02U //!< Z1 CSMPSWD1 offset
#define DCSM_O_Z1_CSMPSWD2 0x04U //!< Z1 CSMPSWD2 offset
#define DCSM_O_Z1_CSMPSWD3 0x06U //!< Z1 CSMPSWD3 offset
#define DCSM_O_Z2_CSMPSWD0 0x00U //!< Z2 CSMPSWD0 offset
#define DCSM_O_Z2_CSMPSWD1 0x02U //!< Z2 CSMPSWD1 offset
#define DCSM_O_Z2_CSMPSWD2 0x04U //!< Z2 CSMPSWD2 offset
#define DCSM_O_Z2_CSMPSWD3 0x06U //!< Z2 CSMPSWD3 offset

//*****************************************************************************
//
// Register key defines.
//
//*****************************************************************************
#define FLSEM_KEY             0xA5U //!< Zone semaphore key
#define DCSM_FORCE_SECERR_KEY 0x5A5AU

//*****************************************************************************
//
//! Data structures to hold password keys.
//
//*****************************************************************************
typedef struct
{
    uint32_t csmKey0;
    uint32_t csmKey1;
    uint32_t csmKey2;
    uint32_t csmKey3;
} DCSM_CSMPasswordKey;

//*****************************************************************************
//
//! Values to distinguish the status of RAM or FLASH sectors. These values
//! describe which zone the memory location belongs too.
//! These values can be returned from DCSM_getRAMZone(),
//! DCSM_getFlashSectorZone().
//
//*****************************************************************************
typedef enum
{
    DCSM_MEMORY_INACCESSIBLE, //!< Inaccessible
    DCSM_MEMORY_ZONE1,        //!< Zone 1
    DCSM_MEMORY_ZONE2,        //!< Zone 2
    DCSM_MEMORY_FULL_ACCESS   //!< Full access
} DCSM_MemoryStatus;

//*****************************************************************************
//
//! Values to pass to DCSM_claimZoneSemaphore(). These values are used
//! to describe the zone that can write to Flash Wrapper registers.
//
//*****************************************************************************
typedef enum
{
    DCSM_FLSEM_ZONE1 = 0x01U, //!< Flash semaphore Zone 1
    DCSM_FLSEM_ZONE2 = 0x02U  //!< Flash semaphore Zone 2
} DCSM_SemaphoreZone;

//*****************************************************************************
//
//! Values to distinguish the security status of the zones.
//! These values can be returned from DCSM_getZone1CSMSecurityStatus(),
//! DCSM_getZone2CSMSecurityStatus().
//
//*****************************************************************************
typedef enum
{
    DCSM_STATUS_SECURE,   //!< Secure
    DCSM_STATUS_UNSECURE, //!< Unsecure
    DCSM_STATUS_LOCKED,   //!< Locked
    DCSM_STATUS_BLOCKED   //!< Blocked
} DCSM_SecurityStatus;

//*****************************************************************************
//
// Values to distinguish the status of the Control Registers. These values
// describe can be used with the return values of
// DCSM_getZone1ControlStatus(), and DCSM_getZone2ControlStatus().
//
//*****************************************************************************
#define DCSM_ALLZERO  0x08U //!< CSM Passwords all zeros
#define DCSM_ALLONE   0x10U //!< CSM Passwords all ones
#define DCSM_UNSECURE 0x20U //!< Zone is secure/unsecure
#define DCSM_ARMED    0x40U //!< CSM is armed

//*****************************************************************************
//
//! Values to decribe the EXEONLY Status.
//! These values are returned from  to DCSM_getZone1RAMEXEStatus(),
//! DCSM_getZone2RAMEXEStatus(), DCSM_getZone1FlashEXEStatus(),
//! DCSM_getZone2FlashEXEStatus().
//
//*****************************************************************************
typedef enum
{
    DCSM_PROTECTED,     //!< Protected
    DCSM_UNPROTECTED,   //!< Unprotected
    DCSM_INCORRECT_ZONE //!< Incorrect Zone
} DCSM_EXEOnlyStatus;

//*****************************************************************************
//
//! Values to distinguish RAM Module.
//! These values can be passed to DCSM_getZone1RAMEXEStatus()
//! DCSM_getZone2RAMEXEStatus(), DCSM_getRAMZone().
//
//*****************************************************************************
typedef enum
{
    //
    // C28x RAMs
    //
    DCSM_RAMLS0, //!< RAMLS0
    DCSM_RAMLS1, //!< RAMLS1
    DCSM_RAMLS2, //!< RAMLS2
    DCSM_RAMLS3, //!< RAMLS3
    DCSM_RAMLS4, //!< RAMLS4
    DCSM_RAMLS5, //!< RAMLS5
    DCSM_RAMLS6, //!< RAMLS6
    DCSM_RAMLS7, //!< RAMLS7
    DCSM_RAMLS8, //!< RAMLS8
    DCSM_RAMLS9, //!< RAMLS9
    DCSM_RAMD0,  //!< RAMD0
    DCSM_RAMD1,  //!< RAMD1
    DCSM_RAMD2,  //!< RAMD2
    DCSM_RAMD3,  //!< RAMD3
    DCSM_RAMD4,  //!< RAMD4
    DCSM_RAMD5,  //!< RAMD5
    DCSM_C28_RAM_END,
    DCSM_RAM1_CPU1_CPU2, //!< CPU1 to CPU2 Message RAM 1
    DCSM_RAM2_CPU1_CPU2, //!< CPU1 to CPU2 Message RAM 2
    DCSM_RAM1_CPU2_CPU1, //!< CPU2 to CPU1 Message RAM 1
    DCSM_RAM2_CPU2_CPU1, //!< CPU2 to CPU1 Message RAM 2
} DCSM_RAMModule;

//*****************************************************************************
//
//! Values to distinguish Flash Sector.
//! These values can be passed to DCSM_getZone1FlashEXEStatus()
//! DCSM_getZone2FlashEXEStatus(), DCSM_getFlashSectorZone().
//
//*****************************************************************************

typedef enum
{
    DCSM_BANK0_SECTOR_0,      //!< Bank 0 - Sector 0
    DCSM_BANK0_SECTOR_1,      //!< Bank 0 - Sector 1
    DCSM_BANK0_SECTOR_2,      //!< Bank 0 - Sector 2
    DCSM_BANK0_SECTOR_3,      //!< Bank 0 - Sector 3
    DCSM_BANK0_SECTOR_31_4,   //!< Bank 0 - Sector 31-4
    DCSM_BANK0_SECTOR_63_32,  //!< Bank 0 - Sector 63-32
    DCSM_BANK0_SECTOR_95_64,  //!< Bank 0 - Sector 95-64
    DCSM_BANK0_SECTOR_127_96, //!< Bank 0 - Sector 127-96
    DCSM_BANK1_SECTOR_0,      //!< Bank 1 - Sector 0
    DCSM_BANK1_SECTOR_1,      //!< Bank 1 - Sector 1
    DCSM_BANK1_SECTOR_2,      //!< Bank 1 - Sector 2
    DCSM_BANK1_SECTOR_3,      //!< Bank 1 - Sector 3
    DCSM_BANK1_SECTOR_31_4,   //!< Bank 1 - Sector 31-4
    DCSM_BANK1_SECTOR_63_32,  //!< Bank 1 - Sector 63-32
    DCSM_BANK1_SECTOR_95_64,  //!< Bank 1 - Sector 95-64
    DCSM_BANK1_SECTOR_127_96, //!< Bank 1 - Sector 127-96
    DCSM_BANK2_SECTOR_0,      //!< Bank 2 - Sector 0
    DCSM_BANK2_SECTOR_1,      //!< Bank 2 - Sector 1
    DCSM_BANK2_SECTOR_2,      //!< Bank 2 - Sector 2
    DCSM_BANK2_SECTOR_3,      //!< Bank 2 - Sector 3
    DCSM_BANK2_SECTOR_31_4,   //!< Bank 2 - Sector 31-4
    DCSM_BANK2_SECTOR_63_32,  //!< Bank 2 - Sector 63-32
    DCSM_BANK2_SECTOR_95_64,  //!< Bank 2 - Sector 95-64
    DCSM_BANK2_SECTOR_127_96, //!< Bank 2 - Sector 127-96
    DCSM_BANK3_SECTOR_0,      //!< Bank 3 - Sector 0
    DCSM_BANK3_SECTOR_1,      //!< Bank 3 - Sector 1
    DCSM_BANK3_SECTOR_2,      //!< Bank 3 - Sector 2
    DCSM_BANK3_SECTOR_3,      //!< Bank 3 - Sector 3
    DCSM_BANK3_SECTOR_31_4,   //!< Bank 3 - Sector 31-4
    DCSM_BANK3_SECTOR_63_32,  //!< Bank 3 - Sector 63-32
    DCSM_BANK3_SECTOR_95_64,  //!< Bank 3 - Sector 95-64
    DCSM_BANK3_SECTOR_127_96, //!< Bank 3 - Sector 127-96
    DCSM_BANK4_SECTOR_0,      //!< Bank 4 - Sector 0
    DCSM_BANK4_SECTOR_1,      //!< Bank 4 - Sector 1
    DCSM_BANK4_SECTOR_2,      //!< Bank 4 - Sector 2
    DCSM_BANK4_SECTOR_3,      //!< Bank 4 - Sector 3
    DCSM_BANK4_SECTOR_31_4,   //!< Bank 4 - Sector 31-4
    DCSM_BANK4_SECTOR_63_32,  //!< Bank 4 - Sector 63-32
    DCSM_BANK4_SECTOR_95_64,  //!< Bank 4 - Sector 95-64
    DCSM_BANK4_SECTOR_127_96  //!< Bank 4 - Sector 127-96
} DCSM_Sector;
//*****************************************************************************
//
//! The following are values that can be passed to DCSM_getRAMZone(),
//! DCSM_getZone2FlashEXEStatus() ,DCSM_getZone1FlashEXEStatus() &
//! DCSM_getFlashSectorZone() as \e cpuInst parameter.
//
//*****************************************************************************
typedef enum
{
    //! To access CPU1 Memory
    DCSM_CPUSEL_CPU1 = 0x0U,
    //! To access CPU2 Memory
    DCSM_CPUSEL_CPU2 = 0x2U,

} DCSM_CPUSel;

//*****************************************************************************
//
//! The following are values that can be passed to
//! DCSM_getZone1OTPSecureLockStatus() & DCSM_getZone2OTPSecureLockStatus()
//! as \e lockType parameter.
//
//*****************************************************************************
typedef enum
{
    //! JTAG Lock Status
    DCSM_OTPSECLOCK_JTAG = 0x0U,
    //! Zone Password Lock
    DCSM_OTPSECLOCK_PSWDLOCK = 0x1U,
    //! Zone CRC Lock
    DCSM_OTPSECLOCK_CRCLOCK = 0x2U,

} DCSM_OTPLock;

//*****************************************************************************
//
//! The following are values that can be passed to
//! DCSM_forcePerSemStatus() & DCSM_getPerSemStatus()
//! as \e grabType parameter.
//
//*****************************************************************************
typedef enum
{
    //! Grab Watchdog configuration
    DCSM_GRABWD = 0U,
    //! Grab NMIWD configuration
    DCSM_GRABNMIWD = 2U,
    //! Grab TIMER1 configuration
    DCSM_GRABTIMER1 = 4U,
    //! Grab Clock configuration
    DCSM_GRABCLKCTL = 6U,
    //! Grab Reset configuration
    DCSM_GRABRSTCTL = 8U

} DCSM_PERSem;

//*****************************************************************************
//
// Defines for the EXEONLYSECTxR register.
// These values can be used in the DCSM_getZone1FlashEXEStatus() &
// DCSM_getZone2FlashEXEStatus().
//
//*****************************************************************************

#define DCSM_EXEONLYSECTR_M 0x0000FFFFU
#define DCSM_EXEONLYSECTR_S 16U

//*****************************************************************************
//
// Defines for the Z1_CR  & Z2_CR register.
// These values can be used in the DCSM_getZone1ControlStatus() &
// DCSM_getZone2ControlStatus().
//
//*****************************************************************************

#define DCSM_ZX_CR_S 16U
//*****************************************************************************
//
// Defines for the EXEONLYRAM1R  register for Zone 1 and Zone 2.
// These values can be used in the DCSM_getZone1RAMEXEStatus(),
// DCSM_getZone1RAMEXEStatus().
//
//*****************************************************************************
#define DCSM_Z1_EXEONLYRAM1R_CPU2 31U
#define DCSM_Z2_EXEONLYRAM1R_CPU2 31U

//*****************************************************************************
//
// Defines for the OTPSECLOCK register.
// These values can be used in the DCSM_getZone1OTPSecureLockStatus()
// & DCSM_getZone2OTPSecureLockStatus()
//
//*****************************************************************************

#define DCSM_Z1_OTPSECLOCK_JTAGLOCK_M 0x1U
#define DCSM_Z1_OTPSECLOCK_JTAGLOCK_S 0U
#define DCSM_OTPSECLOCK_INVALID       0xFFFFU

//*****************************************************************************
//
// DCSM functions
//
//*****************************************************************************

//*****************************************************************************
//
//! Secures zone 1 by setting the FORCESEC bit of Z1_CR register
//!
//! This function resets the state of the zone. If the zone is unlocked,
//! it will lock(secure) the zone and also reset all the bits in the
//! Control Register.
//!
//! \return None.
//
//*****************************************************************************
static inline void DCSM_secureZone1(void)
{
    //
    // Write to the FORCESEC bit.
    //
    HWREG(DCSM_Z1_BASE + DCSM_O_Z1_CR) |= DCSM_Z1_CR_FORCESEC;
}

//*****************************************************************************
//
//! Secures zone 2 by setting the FORCESEC bit of Z2_CR register
//!
//! This function resets the state of the zone. If the zone is unlocked,
//! it will lock(secure) the zone and also reset all the bits in the
//! Control Register.
//!
//! \return None.
//
//*****************************************************************************
static inline void DCSM_secureZone2(void)
{
    //
    // Write to the FORCESEC bit.
    //
    HWREG(DCSM_Z2_BASE + DCSM_O_Z2_CR) |= DCSM_Z2_CR_FORCESEC;
}

//*****************************************************************************
//
//! Returns the CSM security status of zone 1
//!
//! This function returns the security status of zone 1 CSM
//!
//! \return Returns security status as an enumerated type DCSM_SecurityStatus.
//
//*****************************************************************************
static inline DCSM_SecurityStatus DCSM_getZone1CSMSecurityStatus(void)
{
    uint32_t status;
    DCSM_SecurityStatus returnStatus;
    status = HWREG(DCSM_Z1_BASE + DCSM_O_Z1_CR);

    //
    // if UNSECURED bit is set then CSM is unsecured.
    // Else it is secure.
    //
    if ((status & DCSM_Z1_CR_UNSECURE) != 0U)
    {
        returnStatus = DCSM_STATUS_UNSECURE;
    }
    else if ((status & DCSM_Z1_CR_ALLONE) == DCSM_Z1_CR_ALLONE)
    {
        returnStatus = DCSM_STATUS_BLOCKED;
    }
    else if ((status & DCSM_Z1_CR_ALLZERO) == DCSM_Z1_CR_ALLZERO)
    {
        returnStatus = DCSM_STATUS_LOCKED;
    }
    else
    {
        returnStatus = DCSM_STATUS_SECURE;
    }

    return (returnStatus);
}

//*****************************************************************************
//
//! Returns the CSM security status of zone 2
//!
//! This function returns the security status of zone 2 CSM
//!
//! \return Returns security status as an enumerated type DCSM_SecurityStatus.
//
//*****************************************************************************
static inline DCSM_SecurityStatus DCSM_getZone2CSMSecurityStatus(void)
{
    uint32_t status;
    DCSM_SecurityStatus returnStatus;
    status = HWREG(DCSM_Z2_BASE + DCSM_O_Z2_CR);

    //
    // if UNSECURED bit is set then CSM is unsecured.
    // Else it is secure.
    //
    if ((status & DCSM_Z2_CR_UNSECURE) != 0U)
    {
        returnStatus = DCSM_STATUS_UNSECURE;
    }
    else if ((status & DCSM_Z2_CR_ALLONE) == DCSM_Z2_CR_ALLONE)
    {
        returnStatus = DCSM_STATUS_BLOCKED;
    }
    else if ((status & DCSM_Z2_CR_ALLZERO) == DCSM_Z2_CR_ALLZERO)
    {
        returnStatus = DCSM_STATUS_LOCKED;
    }
    else
    {
        returnStatus = DCSM_STATUS_SECURE;
    }

    return (returnStatus);
}

//*****************************************************************************
//
//! Returns the Control Status of zone 1
//!
//! This function returns the Control Status of zone 1 CSM
//!
//! \return Returns the contents of the Control Register which can be
//! used with provided defines.
//
//*****************************************************************************
static inline uint16_t DCSM_getZone1ControlStatus(void)
{
    uint32_t stat;
    //
    // Return the contents of the CR register.
    //

    stat = ((HWREG(DCSM_Z1_BASE + DCSM_O_Z1_CR)) >> DCSM_ZX_CR_S);

    return ((uint16_t)stat);
}

//*****************************************************************************
//
//! Returns the Control Status of zone 2
//!
//! This function returns the Control Status of zone 2 CSM
//!
//! \return Returns the contents of the Control Register which can be
//! used with the provided defines.
//
//*****************************************************************************
static inline uint16_t DCSM_getZone2ControlStatus(void)
{
    uint32_t stat;
    //
    // Return the contents of the CR register.
    //
    stat = ((HWREG(DCSM_Z2_BASE + DCSM_O_Z2_CR)) >> DCSM_ZX_CR_S);

    return ((uint16_t)stat);
}

//*****************************************************************************
//
//! Returns the security zone a RAM section belongs to
//!
//! \param module is the RAM module value. Valid values are type DCSM_RAMModule
//! C28x RAMs :
//! - \b DCSM_RAMLS0
//! - \b DCSM_RAMLS1
//! - \b DCSM_RAMLS2
//! - \b DCSM_RAMLS3
//! - \b DCSM_RAMLS4
//! - \b DCSM_RAMLS5
//! - \b DCSM_RAMLS6
//! - \b DCSM_RAMLS7
//! - \b DCSM_RAMLS8
//! - \b DCSM_RAMLS9
//! - \b DCSM_RAMD0
//! - \b DCSM_RAMD1
//! - \b DCSM_RAMD2
//! - \b DCSM_RAMD3
//! - \b DCSM_RAMD4
//! - \b DCSM_RAMD5
//! - \b DCSM_RAM1_CPU1_CPU2
//! - \b DCSM_RAM2_CPU1_CPU2
//! - \b DCSM_RAM1_CPU2_CPU1
//! - \b DCSM_RAM2_CPU2_CPU1
//!
//!
//! \note  DCSM_CPUSEL_CPU1 can only be used with C28x RAMs (in DCSM_RAMModule)
//!
//! This function returns the security zone a RAM section belongs to.
//!
//! \return Returns DCSM_MEMORY_INACCESSIBLE if the section is inaccessible,
//! DCSM_MEMORY_ZONE1 if the section belongs to zone 1, DCSM_MEMORY_ZONE2 if
//! the section belongs to zone 2 and DCSM_MEMORY_FULL_ACCESS if the section
//! doesn't  belong to any zone (or if the section is unsecure).
//
//*****************************************************************************
static inline DCSM_MemoryStatus DCSM_getRAMZone(DCSM_RAMModule module)
{
    uint16_t shift = (uint16_t)module * 2U;
    uint32_t ramStatus;
    //
    // Read the RAMSTAT register for the specific RAM Module.
    //
    ramStatus = ((HWREG(DCSMCOMMON_BASE + DCSM_O_RAMSTAT1) >> shift) & 0x03U);
    return ((DCSM_MemoryStatus)ramStatus);
}

//*****************************************************************************
//
//! Returns the security zone a flash sector belongs to
//!
//! \param sector is the flash sector value.  Use DCSM_Sector type.
//!
//! This function returns the security zone a flash sector belongs to.
//!
//! \return Returns DCSM_MEMORY_INACCESSIBLE if the section is inaccessible ,
//! DCSM_MEMORY_ZONE1 if the section belongs to zone 1, DCSM_MEMORY_ZONE2 if
//! the section belongs to zone 2 and DCSM_MEMORY_FULL_ACCESS if the section
//! doesn't  belong to any zone (or if the section is unsecure)..
//
//*****************************************************************************
static inline DCSM_MemoryStatus DCSM_getFlashSectorZone(DCSM_Sector sector)
{
    uint32_t sectStat;
    uint16_t shift;

    //
    // Get the Sector status register for the specific bank
    //
    if (sector <= DCSM_BANK1_SECTOR_127_96)
    {
        sectStat = HWREG(DCSMCOMMON_BASE + DCSM_O_SECTSTAT1);
        shift    = (uint16_t)sector * 2U;
    }
    else if (sector <= DCSM_BANK3_SECTOR_127_96)
    {
        sectStat = HWREG(DCSMCOMMON_BASE + DCSM_O_SECTSTAT2);
        shift    = ((uint16_t)sector & 0xFU) * (uint16_t)2U;
    }
    else
    {
        sectStat = HWREG(DCSMCOMMON_BASE + DCSM_O_SECTSTAT3);
        shift    = ((uint16_t)sector & 0xFU) * (uint16_t)2U;
    }

    //
    // Read the SECTSTAT register for the specific Flash Sector.
    //
    return ((DCSM_MemoryStatus)((uint16_t)((sectStat >> shift) & 0x3U)));
}

//*****************************************************************************
//
//! Read Zone 1 Link Pointer Error
//!
//! A non-zero value indicates an error on the bit position that is set to 1.
//!
//! \return Returns the value of the Zone 1 Link Pointer error.
//
//*****************************************************************************
static inline uint32_t DCSM_getZone1LinkPointerError(void)
{
    //
    // Return the LinkPointer Error for specific bank
    //
    return (HWREG(DCSM_Z1_BASE + DCSM_O_Z1_LINKPOINTERERR));
}

//*****************************************************************************
//
//! Read Zone 2 Link Pointer Error
//!
//! A non-zero value indicates an error on the bit position that is set to 1.
//!
//! \return Returns the value of the Zone 2 Link Pointer error.
//
//*****************************************************************************
static inline uint32_t DCSM_getZone2LinkPointerError(void)
{
    //
    // Return the LinkPointer Error for specific bank
    //
    return (HWREG(DCSM_Z2_BASE + DCSM_O_Z2_LINKPOINTERERR));
}

//*****************************************************************************
//
//! Get the status of the security configuration load from USER-OTP or sector
//! error status
//!
//! \return Returns 0 if no error in loading security information from
//! USER-OTP, 1 if an error has occurred in the load from USER-OTP.
//
//*****************************************************************************
static inline bool DCSM_getFlashErrorStatus(void)
{
    return ((bool)(HWREG(DCSMCOMMON_BASE + DCSM_O_SECERRSTAT) & DCSM_SECERRSTAT_ERR));
}

//*****************************************************************************
//
//! Clear the Flash Error Status bit
//!
//! Write a '1' to the clear bit to clear the sector error status bit.
//!
//! \return None.
//
//*****************************************************************************
static inline void DCSM_clearFlashErrorStatus(void)
{
    HWREG(DCSMCOMMON_BASE + DCSM_O_SECERRCLR) |= DCSM_SECERRCLR_ERR;
}

//*****************************************************************************
//
//! Set the force Flash Error Status bit
//!
//! Write a '1' to force bit to set the sector error status bit.
//!
//! \return None.
//
//*****************************************************************************
static inline void DCSM_forceFlashErrorStatus(void)
{
    HWREG(DCSMCOMMON_BASE + DCSM_O_SECERRFRC)
        = DCSM_SECERRFRC_ERR | ((uint32_t)DCSM_FORCE_SECERR_KEY << DCSM_SECERRFRC_KEY_S);
}

//*****************************************************************************
//
//! Returns the OTP secure Lock status of zone 1
//!
//! \param lockType is the  OTP secure Lock feature type .
//!
//! The \e lockType parameter can have one of the following values of the
//! DCSM_CPUSel type:
//! - \b DCSM_OTPSECLOCK_JTAG -  JTAG Lock Status
//! - \b DCSM_OTPSECLOCK_CRCLOCK - Zone CRC Lock
//! - \b DCSM_OTPSECLOCK_PSWDLOCK - Zone Password Lock
//!
//! This function takes in a valid OTP secure Lock feature type and
//! returns the status of zone 1 lock feature
//!
//! \return Returns security lock status can be:
//! For JTAG lock :  0 - JTAG is not locked , 1 - JTAG is locked
//!
//! For Zone Password Lock : 1111 - CSM Pwd locations in the OTP are not
//! protected and can be read from the debugger as well as code running
//! from anywhere.
//! Other Value : CSM Pwd locations in the OTP are protected and can't be read
//! without unlocking CSM of that zone.
//!
//! For Zone CRC Lock : 1111 : VCU has ability to calculate CRC
//! on secure memories.
//! Other Value : VCU doesn't have the ability to calculate CRC on
//! secure memories.
//
//*****************************************************************************
static inline uint32_t DCSM_getZone1OTPSecureLockStatus(DCSM_OTPLock lockType)
{
    uint32_t status, returnStatus;
    status = HWREG(DCSM_Z1_BASE + DCSM_O_Z1_OTPSECLOCK);

    //
    // Reflects the state of the OTP Sec LOCK feature.
    //
    if (lockType == DCSM_OTPSECLOCK_JTAG)
    {
        returnStatus = (status & DCSM_Z1_OTPSECLOCK_JTAGLOCK_M) >> DCSM_Z1_OTPSECLOCK_JTAGLOCK_S;
    }
    else if (lockType == DCSM_OTPSECLOCK_CRCLOCK)
    {
        returnStatus = (status & DCSM_Z1_OTPSECLOCK_CRCLOCK_M) >> DCSM_Z1_OTPSECLOCK_CRCLOCK_S;
    }
    else if (lockType == DCSM_OTPSECLOCK_PSWDLOCK)
    {
        returnStatus = (status & DCSM_Z1_OTPSECLOCK_PSWDLOCK_M) >> DCSM_Z1_OTPSECLOCK_PSWDLOCK_S;
    }
    else
    {
        returnStatus = (uint32_t)DCSM_OTPSECLOCK_INVALID;
    }

    return (returnStatus);
}

//*****************************************************************************
//
//! Returns the OTP secure Lock status of zone 2
//!
//! \param lockType is the  OTP secure Lock feature type .
//!
//! The \e lockType parameter can have one of the following values of the
//! DCSM_CPUSel type:
//! - \b DCSM_OTPSECLOCK_CRCLOCK - Zone CRC Lock
//! - \b DCSM_OTPSECLOCK_PSWDLOCK - Zone Password Lock
//!
//! This function takes in a valid OTP secure Lock feature type and
//! returns the status of zone 2 lock feature
//!
//! \return Returns security lock status can be:
//!
//! For Zone Password Lock : 1111 - CSM Pwd locations in the OTP are not
//! protected and can be read from the debugger as well as code running
//! from anywhere.
//! Other Value : CSM Pwd locations in the OTP are protected and can't be read
//! without unlocking CSM of that zone.
//!
//! For Zone CRC Lock : 1111 : VCU has ability to calculate CRC
//! on secure memories.
//! Other Value : VCU doesn't have the ability to calculate CRC on
//! secure memories.
//
//*****************************************************************************
static inline uint32_t DCSM_getZone2OTPSecureLockStatus(DCSM_OTPLock lockType)
{
    uint32_t status, returnStatus;
    status = HWREG(DCSM_Z2_BASE + DCSM_O_Z2_OTPSECLOCK);

    //
    // Reflects the state of the OTP Sec LOCK feature.
    //
    if (lockType == DCSM_OTPSECLOCK_CRCLOCK)
    {
        returnStatus = (status & DCSM_Z2_OTPSECLOCK_CRCLOCK_M) >> DCSM_Z2_OTPSECLOCK_CRCLOCK_S;
    }
    else if (lockType == DCSM_OTPSECLOCK_PSWDLOCK)
    {
        returnStatus = (status & DCSM_Z2_OTPSECLOCK_PSWDLOCK_M) >> DCSM_Z2_OTPSECLOCK_PSWDLOCK_S;
    }
    else
    {
        returnStatus = (uint32_t)DCSM_OTPSECLOCK_INVALID;
    }

    return (returnStatus);
}

//*****************************************************************************
//
//! Returns the status of Deny Code register
//!
//! This function returns the status of Deny Code register
//!
//! \return Returns the Status of Deny Code register which can be
//! used with the provided defines.
//
//*****************************************************************************
static inline uint16_t DCSM_getFlashDenyCodeStatus(void)
{
    return ((uint16_t)(HWREG(DCSMCOMMON_BASE + DCSM_O_DENYCODE) & 0xFFU));
}

//*****************************************************************************
//
//! Get the device UID_UNIQUE value bits 31 to 0
//!
//! This function returns the device UID_UNIQUE value bits 31 to 0.
//!
//! \return Returns the device UID_UNIQUE value low.
//
//*****************************************************************************
static inline uint32_t DCSM_getDeviceUIDLow(void)
{
    //
    // Returns the device ID_UNIQUE value bits 31 to 0
    //
    return (HWREG(DCSMCOMMON_BASE + DCSM_O_UID_UNIQUE_31_0));
}

//*****************************************************************************
//
//! Get the device UID_UNIQUE value bits 63 to 32
//!
//! This function returns the device UID_UNIQUE value bits 63 to 32.
//!
//! \return Returns the device UID_UNIQUE value high.
//
//*****************************************************************************
static inline uint32_t DCSM_getDeviceUIDHigh(void)
{
    //
    // Returns the device ID_UNIQUE value bits 63 to 32
    //
    return (HWREG(DCSMCOMMON_BASE + DCSM_O_UID_UNIQUE_63_32));
}

//*****************************************************************************
//
//! Get the device PARTIDH value
//!
//! This function returns the device PARTIDH value
//!
//! \return Returns the device PARTIDH value
//
//*****************************************************************************
static inline uint32_t DCSM_getDevicePartID(void)
{
    //
    // Returns the device PARTIDH value
    //
    return (HWREG(DCSMCOMMON_BASE + DCSM_O_PARTIDH));
}

//*****************************************************************************
//
//! Get the Flash wrapper semaphore register value
//!
//! This function returns the Flash wrapper register value
//!
//! \return Returns the Flash wrapper semaphore register value
//
//*****************************************************************************
static inline uint32_t DCSM_getPerSemStatus(DCSM_PERSem grabType)
{

    //
    // Returns the specific Flash wrapper semaphore register value
    //
    return (((HWREG(DCSMCOMMON_BASE + DCSM_O_PERSEM1) >> (uint32_t)grabType) & 0x3U));
}

//*****************************************************************************
//
//! Force the Flash wrapper semaphore register value
//!
//! This function writes into the Flash wrapper register field
//!
//! \return None.
//
//*****************************************************************************
static inline void DCSM_forcePerSemStatus(DCSM_PERSem grabType, uint16_t value)
{
    EALLOW;

    //
    // Writes into the Flash wrapper semaphore register value
    //
    HWREG(DCSMCOMMON_BASE + DCSM_O_PERSEM1)
        = ((value & 0x3U) << (uint32_t)grabType) | ((uint32_t)FLSEM_KEY << DCSM_PERSEM1_KEY_S);
    EDIS;
}
//*****************************************************************************
//
//! Unlocks Zone 1 CSM.
//!
//! \param psCMDKey is a pointer to the DCSM_CSMPasswordKey struct that has the
//! CSM  password for zone 1.
//!
//! This function unlocks the CSM password. It first reads the
//! four password locations in the User OTP. If any of the password values is
//! different from 0xFFFFFFFF, it unlocks the device by writing the provided
//! passwords into CSM Key registers
//!
//! \return None.
//!
//! \note This function should not be called in an actual application,
//! should only be used for once to program the OTP memory. Ensure flash data
//! cache is disabled before calling this function(Flash_disableCache).
//
//*****************************************************************************
extern void DCSM_unlockZone1CSM(const DCSM_CSMPasswordKey *const psCMDKey);

//*****************************************************************************
//
//! Unlocks Zone 2 CSM.
//!
//! \param psCMDKey is a pointer to the CSMPSWDKEY that has the CSM
//!  password for zone 2.
//!
//! This function unlocks the CSM password. It first reads
//! the four password locations in the User OTP. If any of the password values
//! is different from 0xFFFFFFFF, it unlocks the device by writing the
//! provided passwords into CSM Key registers
//!
//! \return None.
//!
//! \note This function should not be called in an actual application,
//! should only be used for once to program the OTP memory. Ensure flash data
//! cache is disabled before calling this function(Flash_disableCache).
//
//*****************************************************************************
extern void DCSM_unlockZone2CSM(const DCSM_CSMPasswordKey *const psCMDKey);
//*****************************************************************************
//
//! Write Zone 1 CSM.
//!
//! \param psCMDKey is a pointer to the CSMPSWDKEY that has the CSM
//!  password for zone 1.
//!
//! Password match flow is essentially a sequence of dummy reads
//! from password locations (PWL) followed by writes to CSMKEY registers.
//! This function helps writing the provided passwords into the CSM Key
//! registers. The DCSM_readZone1CSMPwd() should be called
//! by CPU1 before calling this API.
//!
//! \return None.
//
//*****************************************************************************
extern void DCSM_writeZone1CSM(const DCSM_CSMPasswordKey *const psCMDKey);

//*****************************************************************************
//
//! Write Zone 2 CSM.
//!
//! \param psCMDKey is a pointer to the CSMPSWDKEY that has the CSM
//!  password for zone 2.
//!
//! Password match flow is essentially a sequence of dummy reads
//! from password locations (PWL) followed by writes to CSMKEY registers.
//! This function helps writing the provided passwords into the CSM Key
//! registers. The DCSM_readZone2CSMPwd() should be called
//! by CPU1 before calling this API.
//!
//! \return None.
//
//*****************************************************************************
extern void DCSM_writeZone2CSM(const DCSM_CSMPasswordKey *const psCMDKey);
//*****************************************************************************
//
//! Returns the EXE-ONLY status of zone 1 for a flash sector
//!
//! \param sector is the flash sector value.  Use DCSM_Sector type.
//!
//! This function takes in a valid sector value and returns the status of EXE
//! ONLY security protection for the sector.
//!
//! \return Returns DCSM_PROTECTED if the sector is EXE-ONLY protected,
//! DCSM_UNPROTECTED if the sector is not EXE-ONLY protected,
//! DCSM_INCORRECT_ZONE if sector does not belong to this zone.
//
//*****************************************************************************
extern DCSM_EXEOnlyStatus DCSM_getZone1FlashEXEStatus(DCSM_Sector sector);

//*****************************************************************************
//
//! Returns the EXE-ONLY status of zone 1 for a RAM module
//!
//! \param module is the RAM module value. Valid values are type DCSM_RAMModule
//! C28x RAMs :
//! - \b DCSM_RAMLS0
//! - \b DCSM_RAMLS1
//! - \b DCSM_RAMLS2
//! - \b DCSM_RAMLS3
//! - \b DCSM_RAMLS4
//! - \b DCSM_RAMLS5
//! - \b DCSM_RAMLS6
//! - \b DCSM_RAMLS7
//! - \b DCSM_RAMLS8
//! - \b DCSM_RAMLS9
//! - \b DCSM_RAMD0
//! - \b DCSM_RAMD1
//! - \b DCSM_RAMD2
//! - \b DCSM_RAMD3
//! - \b DCSM_RAMD4
//! - \b DCSM_RAMD5
//! - \b DCSM_RAM1_CPU1_CPU2
//! - \b DCSM_RAM2_CPU1_CPU2
//! - \b DCSM_RAM1_CPU2_CPU1
//! - \b DCSM_RAM2_CPU2_CPU1
//!
//! This function takes in a valid module value and returns the status of EXE
//! ONLY security protection for that module.
//!
//!
//! \return Returns DCSM_PROTECTED if the module is EXE-ONLY protected,
//! DCSM_UNPROTECTED if the module is not EXE-ONLY protected,
//! DCSM_INCORRECT_ZONE if module does not belong to this zone.
//
//*****************************************************************************
extern DCSM_EXEOnlyStatus DCSM_getZone1RAMEXEStatus(DCSM_RAMModule module);

//*****************************************************************************
//
//! Returns the EXE-ONLY status of zone 2 for a flash sector
//!
//! \param sector is the flash sector value. Use DCSM_Sector type.
//!
//! This function takes in a valid sector value and returns the status of EXE
//! ONLY security protection for the sector.
//!
//! \return Returns DCSM_PROTECTED if the sector is EXE-ONLY protected,
//! DCSM_UNPROTECTED if the sector is not EXE-ONLY protected,
//! DCSM_INCORRECT_ZONE if sector does not belong to this zone.
//
//*****************************************************************************
extern DCSM_EXEOnlyStatus DCSM_getZone2FlashEXEStatus(DCSM_Sector sector);

//*****************************************************************************
//
//! Returns the EXE-ONLY status of zone 2 for a RAM module
//!
//! \param module is the RAM module value. Valid values are type DCSM_RAMModule
//! C28x RAMs :
//! - \b DCSM_RAMLS0
//! - \b DCSM_RAMLS1
//! - \b DCSM_RAMLS2
//! - \b DCSM_RAMLS3
//! - \b DCSM_RAMLS4
//! - \b DCSM_RAMLS5
//! - \b DCSM_RAMLS6
//! - \b DCSM_RAMLS7
//! - \b DCSM_RAMLS8
//! - \b DCSM_RAMLS9
//! - \b DCSM_RAMD0
//! - \b DCSM_RAMD1
//! - \b DCSM_RAMD2
//! - \b DCSM_RAMD3
//! - \b DCSM_RAMD4
//! - \b DCSM_RAMD5
//! - \b DCSM_RAM1_CPU1_CPU2
//! - \b DCSM_RAM2_CPU1_CPU2
//! - \b DCSM_RAM1_CPU2_CPU1
//! - \b DCSM_RAM2_CPU2_CPU1
//!
//! This function takes in a valid module value and returns the status of EXE
//! ONLY security protection for that module.
//!
//!
//! \return Returns DCSM_PROTECTED if the module is EXE-ONLY protected,
//! DCSM_UNPROTECTED if the module is not EXE-ONLY protected,
//! DCSM_INCORRECT_ZONE if module does not belong to this zone.
//
//*****************************************************************************
extern DCSM_EXEOnlyStatus DCSM_getZone2RAMEXEStatus(DCSM_RAMModule module);

//*****************************************************************************
//
//! Claims the zone semaphore which allows access to the Flash Wrapper register
//! for that zone.
//!
//! \param zone is the zone which is trying to claim the semaphore which allows
//! access to the Flash Wrapper registers.
//!
//! \return Returns true for a successful semaphore capture, false if it was
//! unable to capture the semaphore.
//
//*****************************************************************************
extern bool DCSM_claimZoneSemaphore(DCSM_SemaphoreZone zone);

//*****************************************************************************
//
//! Releases the zone semaphore.
//!
//! \return Returns true if it was successful in releasing the zone semaphore
//! and false if it was unsuccessful in releasing the zone semaphore.
//!
//! \note  If the calling function is not in the right zone to be able
//!        to access this register, it will return a false.
//
//*****************************************************************************
extern bool DCSM_releaseZoneSemaphore(void);

//*****************************************************************************
//
//! Perform dummy reads on the 128-bit Zone 1 CSM password.
//!
//! This function reads the four password locations in the User OTP
//! needed to be done as part of the Password Match Flow before
//! writes to the CSMKEY registers.
//! This would need to be done before a DCSM_writeZone1CSM().
//!
//! \return None.
//!
//! \note This API to be called from CPU1.
//
//*****************************************************************************
extern void DCSM_readZone1CSMPwd(void);

//*****************************************************************************
//
//! Perform dummy reads on the 128-bit Zone 2 CSM password.
//!
//! This function reads the four password locations in the User OTP
//! needed to be done as part of the Password Match Flow before
//! writes to the CSMKEY registers.
//! This would need to be done before a DCSM_writeZone2CSM().
//!
//! \return None.
//!
//! \note This API to be called from CPU1.
//
//*****************************************************************************
extern void DCSM_readZone2CSMPwd(void);

//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************

//*****************************************************************************
//
// Mark the end of the C bindings section for C++ compilers.
//
//*****************************************************************************
#ifdef __cplusplus
}
#endif

#endif //  DCSM_H
